if the angular velocity of the particle rotating in a circle is doubled then it's moment of inertia becomes ?
Answers
Answer:
Moment of Inertia is anti proportional to the squared of Angular Velocity. So if we double the angular velocity, moment of inertia will be one fourth
Answer:
The moment of inertia will remain the same.
Step-by-step explanation:
The moment of inertia (I) for a particle is the mass of the particle times the square of the distance. The moment of inertia is considered when particle rotating in a circle is doubled. Now, if this is the particle and the particle is moving with omega and the distance of the particle then the moment of inertia about the external rotation equals M times R squared.
Therefore, by increasing the angular velocity is doubled then the moment of inertia will remain the same.
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